At the start of this experiment we were required to obtain a set of four Wisconsin Fast Plants, which are genetically, known as Brassica rapa. These plants have been, “originally selected under continuous fluorescent light to grow and reproduce quickly for research purposes, these petite, fast-growing plants have been used for teaching biology concepts” (Wisconsin Fast Plants). These four pots that contain our plants will be under our watch for the next 16 weeks where we will show our results at the end of the semester.
Once we receive our four pink labeled pots we received information that our P1 for every pot is the same and it is homozygous recessive for both traits (aa) which is non-purple stem and (yy) which is yellow-green leaves. Our
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To solve this problem our group placed stakes next to each plant in the pots and used wire to provide the plants with support to grow upright and stay in place. Furthermore, to prevent crosspollination with another groups plants all of our plants where covered with pollination bags. In addition, our plants were given 1-2 inches of water constant for 29 days and place in a room that provided fluorescent light for 24 hours a day to get our plants to grow at their full potential. After a couple weeks of plant growth the flowers where then able to pollinate to perform this procedure we used a tool called a chenille rod or “bee stick” where we would lightly touch the anthers of the flowers with the bee stick and transfer the pollen on the stick between the P1 and P2 plants. During weeks 7 and 8 watering of our plants stopped to allow our plants to dry under light before the seeds can be collected from the pods. Once the seeds were ready to be collected they were harvested in dry pods over a petri dish and allowed to germinate in a filer paper within the petri dish. Once our seeds where settled in neat rows we kept it well light and moist at all times and recorded our findings (CSUF,
The experiment was begun by obtaining four 8 oz. Styrofoam cups and punching a hole through the bottom of them. This hole was for water entry or excess water drainage. Moistened soil was packed to the 1/2 full line in the cup along with 3 fertilizer pellets The cups were labeled the following: Rosette-H20, Rosette-GA, Wild-Type-H2O, and Wild-type- GA.(Handout 1) A small wooden applicator stick was obtained a moistened at the tip with water from the petri dish labeled ‘water.’ This was to be able to attract the seed to the applicator in order to place the seed from its original container into
Wisconsin Fast Plants (WFPs), or Brassica rapa, are plants in the Cruciferous family, developed through selective breeding from a strain of Himalayan weeds (Williams). WFPs have a life cycle of around forty days. This short life cycle makes WFPs valuable for laboratory study. In addition, WFPs are simple to grow, as they only need water and a light source to survive (Williams). Their simple needs, allowing ease in controlling variables, make WFPs ideal for use in experiments.
14. In a flower garden, the gardener has purple and white pansies. He notices that a new pansy has sprouted. When it finally flowers, the pansy is lavender. Explain how this happened. (5 points) This would happen in a case incomplete dominance. The white pansies nor the purple ones genes dominated making a 50/50 offspring.
If one parent gives their offspring a purple stem allele while the other parent gives the offspring a non-purple cell allele, their offsprings stem will be purple. If there is two parents who both give their offspring non-purple stem alleles, their offspring will have a non-purple stem. This proves my point completely, because it shows all of the outcomes for an offspring. It also shows if you get two purple genes from your parents, you can only show a purple stem, same for the non-purple gene. And if you get one of each gene from your parents, then you’ll get a purple because purple is a dominant
The Wisconsin fast plant also known as the Brassica rapa belongs to the crucifer family of plants, closely related to cabbages, turnips, broccoli and other vegetables. Brassica rapa plants are used because they are viewed as model organism, a species that has been widely studied and can be breed in a laboratory. It is an ideal model organism because it has a short growing process. About 2 weeks after the plant is planted it will began flowering, possessing the ability to produce seeds at high planting density, is categorized as a petite plant size, and lastly has the ability to grow under continuous fluorescent lighting in a standard potting mix. This plants make it easy to track the genetic information passed from generation to generation
Figure 1: . In 2010 A cartoon by Piraro about how fast food effect pigeons which representing the people who addicted on fast food.
Beets also known as Beta Vulgaris, contain a pigment known as betacyanin that gives the beets its deep rich red color, it is water soluble and is stored in the vacuoles of the beet roots and stems. Because the betacyanin is a water soluble pigment is can not easily cross the cell membranes.
The “Brassica rapa” is a fast plant known as the field mustard. This plant is well known for its rapid growing rate, which makes it an easy breeding cycle and easy to pollinate. In giving so this makes “Brassica rapa” a great participant for testing Gregor Mendel’s theories of inheritance. The “Brassica rapa” acts like a test subject in testing cross-pollination giving the understanding to the dominant allele of colored stems. There are different colors that are visible on the stem that are above the soil; the colors vary from green to purple. P1 seed was ordered, germinated and cross-pollinated until germination of the next off spring of plants were also done. It was
Recall from the background information that purple corn kernels are dominant and yellow kernels are recessive. The second ear of corn was the result of crossing two heterozygous ears of male purple corn (Pp x Pp). This is represented by the Punnett square below. Complete the Punnett square by writing the correct letters that correspond to each number indicated in the table. (4 points)
Other forms of the genotype, (ygr/ YGR) and (YGR/YGR) will result in green leaves. A third gene in Brassica rapa is the rosette mutant, homozygous recessive. The genotype needed for the short, rosette plant form is (ros/ros). The other two genotypes (ros/ROS) and wild type (ROS/ROS) will result in the normal form of the plant. The phenotypes and genotypes are related in that the phenotypes provide a visible indication of the genotype. This is true in an individual with a homozygous recessive gene. However, in the case of dominant genes, since only one copy is needed for the phenotype to be present, then the second copy is not indicated. The second copy can be identified process where two individuals (P1 and P2) with the same dominant phenotype, called the parental generation, are bred. This produces an F1 or first generation of offspring. The F1 generation can also be bred and produce an F2 generation. Each individual in the F1 and F2 generations receives one copy from each parent of the 3-letter genotype code, called an allele.
Throughout this experiment, we are researching the effect on the growth and survival of Wisconsin Fast Plants using fertilizer pellets to help with the growth of the plants. Wisconsin Fast Plants is a plant member of the crucifer family which is related to other plants (vegetables) such as cabbage, broccoli, turnips, etc. This plants are small and can grow very easily because they go through their cell cycle around 40 days. Wisconsin Fast Plants Fertilizers are different materials used that can provide plants with the nutrients it need to grow. (1) These plants are a good model system to study because they grew very quickly and didn’t need a lot of resources to grow making them the perfect plant to use for studies. (4) By using the fertilizers,
Imagine that you are crossing two plants that are heterozygous for flower color and seed shape. The dominant and recessive alleles for these traits are:
A plant's growth ability is dependent on its ability to acquire the resources it needs to survive. Competition such as interspecific and intraspecific, limiting resources, and population density affect the fitness level of a plant. This experiment was conducted in order to test the capability of collards and radishes to grow in manipulated densities under interspecific and intraspecific competition. I hypothesized that both collard and radish plants will grow more efficiently in single species pots under low-density conditions. I also hypothesized that in the mixed species plots the radishes will be more fit to survive and grow better than the collard plants in both the high and low-density pots. Both high and low density and single and mixed species plots were planted and results were observed. There was a significant
Gathering Data on the Different Traits of the Garden Pea (Pisum Sativum), Organizing the Dominant/Recessive Phenotypes of 60 F2 Offspring and Determining Whether the Null Hypothesis is Rejected or Accepted Using the Chi-Square Test.
This table helps show all the possible genotypes from one set of parents. The table shows that the genotypes purple and starchy are dominant, and the genotypes yellow and sweet are recessive.(stallsmith)